The participation of numerous physicochemical and biological functions maintains the evolution and expansion of the remarkable nature. Due to its vast applicability in several engineering disciplines, naturally occurring bio‐mineralization or… Click to show full abstract
The participation of numerous physicochemical and biological functions maintains the evolution and expansion of the remarkable nature. Due to its vast applicability in several engineering disciplines, naturally occurring bio‐mineralization or microbially induced calcium carbonate (MICP) precipitation is attracting more interest. Cave bacteria contribute to the precipitation of calcium carbonate (CaCO3). In the present study, soil sediments were collected from Kashmir cave, KPK, Pakistan, and plated on B4 specific nutrients limited medium for bacterial isolation and the viable bacterial count was calculated. Three bacterial strains named GSN‐11, TFSN‐14, and TFSN‐15 were capable of precipitating CaCO3. These bacterial isolates were identified through 16S rRNA gene sequencing and strain GSN‐11 was identified as Bacillus toyonensis, TFSN‐14 as Paracoccus limosus and TFSN‐15 as Brevundimonas diminuta. Enhanced CaCO3 precipitation potential of these bacteria strains was observed at 25°C and pH 5. The precipitated CaCO3 was confirmed by scanning electron microscopy, X‐ray powder diffraction, and Fourier transform infra‐red spectroscopy. The findings showed that the precipitates were dominated by calcite, aragonite, and nanosize vaterite. Current research suggests that precipitation of CaCO3 by proteolytic cave bacteria is widespread in Kashmir cave and these bacterial communities can actively contribute to the formation of CaCO3 by enhancing the pH of the microenvironment.
               
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